硬件驱动程序不需要知道象JFFS2和FTL那样的用户模块使用的方法。
Hardware drivers need not know about the methods employed by user modules like JFFS2 and FTL.
这些可加载的模块为内核提供了访问磁盘和磁盘上的文件系统的方法,并为其他硬件提供了驱动程序。
These loadable modules give the kernel the means to access disks and the file systems on those disks, as well as drivers for other hardware assets.
内核将首先载入内核模块,然后检测硬件(软驱、硬盘、网络适配器等),检验硬件配置,然后扫描和载入设备驱动程序。
The kernel will load kernel modules first, then detect hardware (floppy drive, hard disk, network adapters, etc.), verify hardware configuration, and then scan and load device drivers.
Linux中mtd子系统的主要目标是在系统的硬件驱动程序和上层,或用户模块之间提供通用接口。
The main aim of the MTD subsystem in Linux is to provide a generic interface between the hardware drivers and the upper layers, or user modules, of the system.
Linux下的MTD驱动程序接口被划分为两类模块:用户模块和硬件模块。
The MTD driver interface under Linux is classified into two modules: the user module and the hardware module.
并实现了这个模块的硬件电路的设计和驱动程序的开发。
And we have designed the driver and the hardware circuit of this modular.
介绍了一种永磁无刷直流电机控制系统的设计方案,主要涉及速度闭环和功率模块驱动的硬件电路设计;并通过实验证明该设计可直接用于小型无刷直流电机的控制。
This article presents a design of permanent magnetic brushless DC motor control system and mainly involves the hardware circuit design of speed closed loop and power module drive.
硬件抽象层共分为内部通信模块、虚拟驱动模块和设备管理模块三部分。
Hardware Abstraction Layer has three models of internal communication, virtual driver and equipment management.
其硬件结构主要由无线传输模块、驱动模块、测距模块、视觉模块等组成,各个模块的控制核心为单片机和PC机。
The hardware structure includes: wireless communication module, driving module, ranging module, vision module, etc. The control core of each module is the single chip microcomputer and PC.
本文提出了一种基于DSP的直流无刷电机控制器的硬件电路,包括电流环、速度位置环和IPM(智能功率模块)驱动的硬件电路设计。
In the paper, the hardware circuit design of a DSP-based Brushless DC Motor Controller is given, which includes a current loop, a speed position loop, and IPM (Intelligent Power model) driver.
硬件设计部分主要有整流、斩波和逆变各个功能模块电路、驱动电路的设计以及参数选择等。
Hardware design mainly covers inverting, commuting, buck and every function module electrocircuit inverting and electrocircuit driving and so on.
其中详细阐述了电控系统的硬件设计如喷醇的驱动电路和软件实现编程的思路和方法,比如转速采集模块编程。
Also this paper gives the detailed information of hardware and software designs, such as the driven circuit of ethanol injector and speed capture software module.
对系统硬件设计的DSP 3.3V电源的获取、电压电流采样模块、IGBT驱动、一般I/O信号的处理、故障监测和串口通信电路进行了研究分析。
The overall hardware design scheme is performed, such as DSP 3. 3V power, voltage and current sampling module, IGBT driving circuit, I/O signal processor, fault detection module and COM circuit etc.
在此基础上对系统的驱动模块进行了具体的分析设计,完成了以at89c51为核心的步进电动机驱动控制模块的硬件和软件设计。
On this basis, the drive modules are concretely analyzed and designed, the hardware and software design of step-motor driving control system with AT89C51 microprocessor at the core are accomplished.
系统软件在硬件的基础上设计了各个功能模块和驱动模块,满足了圆头锁眼机的技术要求。
Based on the hardware, system software has designed each functional and driver modules. And the software has met the technical requirements of eyelet buttonhole sewing machine.
该系统采用模块化设计,分为驱动系统和检测系统两大模块,并给出了具体的软硬件实现,满足了实际的需要。
The system is a modularization design which has drive and inspect module. The hardware and software of control system are presented and satisfy practical demand.
简单介绍了模块温度采样电路和TEC制冷驱动器的硬件结构及工作原理;
The paper firstly briefly introduced the hardware structures and the working principles of sampling circuit and TEC driving circuit;
简单介绍了模块温度采样电路和TEC制冷驱动器的硬件结构及工作原理;
The paper firstly briefly introduced the hardware structures and the working principles of sampling circuit and TEC driving circuit;
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